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Marine & Wildlife
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Adverse multigeneration combined impacts of micro(nano)plastics and emerging pollutants in the aquatic environment
The Science of The Total Environment2023
35 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 60
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Muhammad Junaid,
Shulin Liu,
Guanglong Chen,
Guanglong Chen,
Guanglong Chen,
Guanglong Chen,
Jun Wang
Guanglong Chen,
Guanglong Chen,
Guanglong Chen,
Guanglong Chen,
Muhammad Junaid,
Muhammad Junaid,
Shulin Liu,
Shulin Liu,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Jun Wang
Jun Wang
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Jun Wang
Jun Wang
Guanglong Chen,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Junaid Ali Siddiqui,
Junaid Ali Siddiqui,
Shulin Liu,
Shulin Liu,
Shulin Liu,
Shulin Liu,
Shulin Liu,
Shulin Liu,
Shulin Liu,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Guanglong Chen,
Muhammad Junaid,
Muhammad Junaid,
Jun Wang
Guanglong Chen,
Muhammad Junaid,
Guanglong Chen,
Guanglong Chen,
Muhammad Junaid,
Muhammad Junaid,
Jun Wang
Zohaib Abbas,
Jun Wang
Guanglong Chen,
Guanglong Chen,
Guanglong Chen,
Guanglong Chen,
Zohaib Abbas,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muhammad Junaid,
Jun Wang
Shulin Liu,
Shulin Liu,
Zohaib Abbas,
Junaid Ali Siddiqui,
Jun Wang
Muhammad Junaid,
Jun Wang
Jun Wang
Jun Wang
Guanglong Chen,
Jun Wang
Guanglong Chen,
Muhammad Junaid,
Guanglong Chen,
Jun Wang
Guanglong Chen,
Jun Wang
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Guanglong Chen,
Muhammad Junaid,
Muhammad Junaid,
Jun Wang
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Guanglong Chen,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muhammad Junaid,
Muhammad Junaid,
Jun Wang
Ruijie Lan,
Jun Wang
Guanglong Chen,
Guanglong Chen,
Guanglong Chen,
Guanglong Chen,
Guanglong Chen,
Guanglong Chen,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Shulin Liu,
Shulin Liu,
Shulin Liu,
Shulin Liu,
Ruijie Lan,
Jun Wang
Zohaib Abbas,
Jun Wang
Jun Wang
Jun Wang
Guanglong Chen,
Jun Wang
Jun Wang
Jun Wang
Guanglong Chen,
Jun Wang
Jun Wang
Muhammad Junaid,
Jun Wang
Jun Wang
Jun Wang
Shulin Liu,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Shulin Liu,
Jun Wang
Jun Wang
Jun Wang
Muhammad Junaid,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Guanglong Chen,
Shulin Liu,
Jun Wang
Guanglong Chen,
Guanglong Chen,
Jun Wang
Guanglong Chen,
Guanglong Chen,
Jun Wang
Jun Wang
Guanglong Chen,
Guanglong Chen,
Guanglong Chen,
Guanglong Chen,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Guanglong Chen,
Jun Wang
Jun Wang
Guanglong Chen,
Guanglong Chen,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muhammad Junaid,
Muhammad Junaid,
Muhammad Junaid,
Jun Wang
Jun Wang
Muhammad Junaid,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muhammad Junaid,
Guanglong Chen,
Muhammad Junaid,
Jun Wang
Guanglong Chen,
Jun Wang
Guanglong Chen,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Muhammad Junaid,
Jun Wang
Jun Wang
Jun Wang
Muhammad Junaid,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Guanglong Chen,
Jun Wang
Jun Wang
Guanglong Chen,
Jun Wang
Guanglong Chen,
Jun Wang
Jun Wang
Jun Wang
Guanglong Chen,
Jun Wang
Jun Wang
Jun Wang
Jun Wang
Summary
This review examines how micro and nanoplastics combined with other pollutants can cause harm not just to exposed organisms but also to their offspring across multiple generations. The transgenerational effects include changes in growth, reproduction, and gene expression that persist even without continued exposure. This suggests that microplastic pollution could have long-lasting impacts on wildlife populations beyond what single-generation studies reveal.
Microplastics (1 μm - 5 mm) and nanoplastics (1-100 nm), commonly referred to as micro(nano)plastics (MNPs), are widespread in both freshwater and marine habitats, and they can have significant negative effects on exposed organisms. In recent years, the transgenerational toxicity of MNPs has gained considerable attention owing to its potential to harm both parents and descendants. This review summarizes the available literature on the transgenerational combined effects of MNPs and chemicals, aimed at providing a deeper understanding of the toxicity of MNPs and co-occurring chemicals to both parents and offspring in the aquatic environment. The reviewed studies showed that exposure to MNPs, along with inorganic and organic pollutants, increased bioaccumulation of both MNPs and co-occurring chemicals and significantly impacted survival, growth, and reproduction, as well as induced genetic toxicity, thyroid disruption, and oxidative stress. This study further highlights the factors affecting the transgenerational toxicity of MNPs and chemicals, such as MNP characteristics (polymer type, shape, size, concentration, and aging), type of exposure and duration, and interactions with other chemicals. Finally, future research directions, such as the careful consideration of MNP properties in realistic environmental conditions, the use of a broader range of animal models, and the examination of chronic exposure and MNP-chemical mixture exposure, are also discussed as a means of broadening our understanding of the effects of MNPs that are passed down from generation to generation.